Search

Your search keyword '"Weis, Victoria G."' showing total 36 results
Start Over Author "Weis, Victoria G." Publication Year Range Last 10 years
36 results on '"Weis, Victoria G."'

2. Apical Membrane Alterations in Non-intestinal Organs in Microvillus Inclusion Disease

Author

Schlegel, Cameron, Weis, Victoria G, Knowles, Byron C, Lapierre, Lynne A, Martin, Martin G, Dickman, Paul, Goldenring, James R, and Shub, Mitchell D

Subjects
Medical Physiology, Biomedical and Clinical Sciences, Digestive Diseases, Genetics, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, Oral and gastrointestinal, Cell Membrane, Child, Female, Genetic Predisposition to Disease, Humans, Indians, North American, Infant, Infant, Newborn, Kidney, Malabsorption Syndromes, Male, Microvilli, Mucolipidoses, Mutation, Myosin Heavy Chains, Myosin Type V, Pancreas, Stomach, Rab11a, Myosin Vb, MYO5B, Syntaxin 3, Primary cilium, Parietal cells, BSEP, Ezrin, MRP2, Clinical Sciences, Gastroenterology & Hepatology, Clinical sciences
Abstract

ObjectivesMicrovillus inclusion disease (MVID) is a severe form of neonatal diarrhea, caused mainly by mutations in MYO5B. Inactivating mutations in MYO5B causes depolarization of enterocytes in the small intestine, which gives rise to chronic, unremitting secretory diarrhea. While the pathology of the small intestine in MVID patients is well described, little is known about extraintestinal effects of MYO5B mutation.MethodsWe examined stomach, liver, pancreas, colon, and kidney in Navajo MVID patients, who share a single homozygous MYO5B-P660L (1979C>T p.Pro660Leu, exon 16). Sections were stained for markers of the apical membrane to assess polarized trafficking.ResultsNavajo MVID patients showed notable changes in H/K-ATPase-containing tubulovesicle structure in the stomach parietal cells. Colonic mucosa was morphologically normal, but did show losses in apical ezrin and Syntaxin 3. Hepatocytes in the MVID patients displayed aberrant canalicular expression of the essential transporters MRP2 and BSEP. The pancreas showed small fragmented islets and a decrease in apical ezrin in pancreatic ducts. Kidney showed normal primary cilia.ConclusionsThese findings indicate that the effects of the P660L mutation in MYO5B in Navajo MVID patients are not limited to the small intestine, but that certain tissues may be able to compensate functionally for alterations in apical trafficking.

Published
2018

3. Does the Timing of Surgical Intervention Impact Outcomes in Necrotizing Enterocolitis?

Author

Rauh, Jessica L., Reddy, Menaka N., Santella, Nicole L., Ellison, Maryssa A., Weis, Victoria G., Zeller, Kristen A., Garg, Parvesh M., and Ladd, Mitchell R.

Abstract

Objectives The optimal time for intervention in surgical necrotizing enterocolitis (sNEC) remains to be elucidated. Surgical management varies between peritoneal drain (PD), laparotomy (LAP), and PD with subsequent LAP (PD + LAP). We propose that some infants with surgical NEC benefit from late (>48 h) operative intervention to allow for resuscitation.Methods A retrospective comparison of clinical information in infants with sNEC from 2012 to 2022 was performed. Early intervention was defined as less than 48 hours from time of NEC diagnosis to surgical intervention.Results 118 infants were identified, 92 underwent early intervention (62 LAP; 22 PD; 8 PD + LAP) and 26 underwent late intervention (20 LAP; 2 PD; 4 PD + LAP). Infants with early intervention were diagnosed younger (DOL 8 [6, 15] vs 20 [11, 26]; P=< .05) with more pneumoperitoneum (76% vs 23%; P=< .05). The early intervention group had a higher mortality (35% vs 15%; P=< .05). When excluding infants with pneumoperitoneum, the early intervention group had a higher mortality rate (10/22 (45%), 4/26 (15%); P< .05) and had more bowel resected (29 ± 17 cm vs 9 ± 8 cm; P< .05), with the same number of patients scoring above 3 on the MD7 criteria.Conclusion Infants with NEC who underwent early surgical intervention had a higher mortality and more bowel resected. While this study has a provocative finding, it is severely limited by the non-specific 48-hour cut off. However, our data suggests that a period of medical optimization may improve outcomes in infants with sNEC and thus more in-depth studies are needed.

Published
2024
Full Text
View/download PDF

5. Mapping the geographical distribution of the mucosa-associated gut microbiome in GI-symptomatic children with autism spectrum disorder.

Author

Reeves, Kimberly D., Figuereo, Yosauri F., Weis, Victoria G., Fang-Chi Hsu, Engevik, Melinda A., Krigsman, Arthur, and Walker, Stephen J.

Subjects
CHILDREN with autism spectrum disorders, GUT microbiome, GASTROINTESTINAL system, AUTISM spectrum disorders
Abstract

Autism spectrum disorder (ASD) is a neurodevelopmental disorder characterized by cognitive, behavioral, and communication impairments. In the past few years, it has been proposed that alterations in the gut microbiota may contribute to an aberrant communication between the gut and brain in children with ASD. Consistent with this notion, several studies have demonstrated that children with ASD have an altered fecal microbiota compared with typically developing (TD) children. However, it is unclear where along the length of the gastrointestinal (GI) tract these alterations in microbial communities occur. In addition, the variation between specific mucosa-associated communities remains unknown. To address this gap in knowledge of the microbiome associated with ASD, biopsies from the antrum, duodenum, ileum, right colon, and rectum of children with ASD and age- and sexmatched TD children were examined by 16S rRNA sequencing. We observed an overall elevated abundance of Bacillota and Bacteroidota and a decreased abundance of Pseudomonadota in all GI tract regions of both male and female children with ASD compared with TD children. Further analysis at the genera level revealed unique differences in the microbiome in the different regions of the GI tract in children with ASD compared with TD children. We also observed sex-specific differences in the gut microbiota composition in children with ASD. These data indicate that the microbiota of children with ASD is altered in multiple regions of the GI tract and that different anatomic locations have unique alterations in mucosa-associated bacterial genera. NEW & NOTEWORTHY Analysis in stool samples has shown gut microbiota alterations in children with autism spectrum disorder (ASD) compared with typically developing (TD) children. However, it is unclear which segment(s) of the gut exhibit alterations in microbiome composition. In this study, we examined microbiota composition along the gastrointestinal (GI) tract in the stomach, duodenum, ileum, right colon, and rectum. We found site-specific and sex-specific differences in the gut microbiota of children with ASD, compared with controls. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

8. Clinical Correlates of Cholestasis in Preterm Infants with Surgical Necrotizing Enterocolitis

Author

Maheshwari, Akhil, primary, Garg, Parvesh M, additional, Pittman, Isabella, additional, Yi, Joe, additional, Weis, Victoria G, additional, Rodriguez, Ricardo Jorge, additional, Ladd, Mitchell R, additional, Rauh, Jessica L, additional, McDonald, Anna Greene, additional, Welch, Cherrie, additional, Premkumar, Muralidhar Hebbur, additional, and Garg, Padma P, additional

Published
2023
Full Text
View/download PDF

22. Reversible deficits in apical transporter trafficking associated with DGAT1 deficiency

Author

Schlegel, Cameron, Lapierre, Lynne A., Weis, Victoria G., Williams, Janice A., Kaji, Izumi, Pinzon-Guzman, Carolina, Prasad, Nripesh, Boone, Braden, Jones, Angela, Correa, Hernan, Levy, Shawn E., Han, Xianlin, Wang, Miao, Thomsen, Kelly, Acra, Sari, and Goldenring, James R.

Subjects
lipids (amino acids, peptides, and proteins), Article
Abstract

Deficiency in diacylglycerol acyltransferase (DGAT1) is a rare cause of neonatal diarrhea, without a known mechanism or in vitro model. METHODS AND RESULTS: A patient presenting at our institution at 7 weeks of life with failure to thrive and diarrhea was found by whole-exome sequencing to have a homozygous DGAT1 truncation mutation. Duodenal biopsies showed loss of DGAT1 and deficits in apical membrane transporters and junctional proteins in enterocytes. When placed on a very low-fat diet, the patient’s diarrhea resolved with normalization of brush border transporter localization in endoscopic biopsies. DGAT1 knockdown in Caco2-BBe cells modeled the deficits in apical trafficking, with loss of apical DPPIV and junctional occludin. Elevation in cellular lipid levels, including diacylglycerol (DAG) and phospholipid metabolites of DAG, was documented by lipid analysis in DGAT1 knockdown cells. Culture of the DGAT1 knockdown cells in lipid-depleted media led to re-establishment of occludin and return of apical DPPIV. DISCUSSION: DGAT1 loss appears to elicit global changes in enterocyte polarized trafficking that could account for deficits in absorption seen in the patient. The in vitro modeling of this disease should allow for investigation of possible therapeutic targets.

Published
2018

23. Reversible deficits in apical transporter trafficking associated with deficiency in diacylglycerol acyltransferase

Author

Schlegel, Cameron, primary, Lapierre, Lynne A., additional, Weis, Victoria G., additional, Williams, Janice A., additional, Kaji, Izumi, additional, Pinzon-Guzman, Carolina, additional, Prasad, Nripesh, additional, Boone, Braden, additional, Jones, Angela, additional, Correa, Hernan, additional, Levy, Shawn E., additional, Han, Xianlin, additional, Wang, Miao, additional, Thomsen, Kelly, additional, Acra, Sari, additional, and Goldenring, James R., additional

Published
2018
Full Text
View/download PDF

31. Photoacoustic imaging for non-invasive assessment of biomarkers of intestinal injury in experimental necrotizing enterocolitis.

Author

Weis JA, Rauh JL, Ellison MA, Cruz-Diaz N, Yamaleyeva LM, Welch CD, Zeller KA, and Weis VG

Abstract

Background: Necrotizing enterocolitis (NEC) is an often-lethal disease of the premature infant intestinal tract, exacerbated by significant diagnostic difficulties. In NEC, the intestine exhibits hypoperfusion and dysmotility, contributing to disease pathogenesis. However, these features cannot be accurately and quantitively assessed with current imaging modalities. We have previously demonstrated the ability of photoacoustic imaging (PAI) to non-invasively assess intestinal tissue oxygenation and motility in a healthy neonatal rat model., Methods: In this first-in-disease application, we evaluated NEC using PAI to assess intestinal health biomarkers in an experimental model of NEC. NEC was induced in neonatal rats from birth to 4-days. Healthy breastfed (BF) and NEC rat pups were imaged at 2- and 4-days., Results: Intestinal tissue oxygen saturation was measured with PAI, and NEC pups showed significant decreases at 2- and 4-days. Ultrasound and PAI cine recordings were used to capture intestinal peristalsis and contrast agent transit within the intestine. Intestinal motility, assessed using computational intestinal deformation analysis, demonstrated significant reductions in both early and established NEC. NEC damage was confirmed with histology and dysmotility was confirmed by small intestinal transit assay., Conclusion: This preclinical study presents PAI as an emerging diagnostic imaging modality for intestinal disease assessment in premature infants., Impact: Necrotizing enterocolitis (NEC) is a devastating intestinal disease affecting premature infants with significant mortality. NEC presents significant clinical diagnostic difficulties, with limited diagnostic confidence complicating timely and effective interventional efforts. This study is an important foundational first-in-disease preclinical study that establishes the utility for PAI to detect changes in intestinal tissue oxygenation and intestinal motility with NEC disease induction and progression. This study demonstrates the feasibility and exceptional promise for the use of PAI to non-invasively assess oxygenation and motility in the healthy and diseased infant intestine., (© 2024. The Author(s).)

Published
2024
Full Text
View/download PDF

32. Photoacoustic Imaging for Non-Invasive Assessment of Physiological Biomarkers of Intestinal Injury in Experimental Necrotizing Enterocolitis.

Author

Weis JA, Rauh JL, Ellison MA, Cruz-Diaz N, Yamaleyeva LM, Welch CD, Zeller KA, and Weis VG

Abstract

Background: Necrotizing enterocolitis (NEC) is an often-lethal disease of the premature infants' intestinal tract that is exacerbated by significant difficulties in early and accurate diagnosis. In NEC disease, the intestine often exhibits hypoperfusion and dysmotility, which contributes to advanced disease pathogenesis. However, these physiological features cannot be accurately and quantitively assessed within the current constraints of imaging modalities frequently used in the clinic (plain film X-ray and ultrasound). We have previously demonstrated the ability of photoacoustic imaging (PAI) to non-invasively and quantitively assess intestinal tissue oxygenation and motility in a healthy neonatal rat model. As a first-in-disease application, we evaluated NEC pathogenesis using PAI to assess intestinal health biomarkers in a preclinical neonatal rat experimental model of NEC., Methods: NEC was induced in neonatal rat pups from birth to 4 days old via hypertonic formula feeding, full-body hypoxic stress, and lipopolysaccharide administration to mimic bacterial colonization. Healthy breastfed (BF) controls and NEC rat pups were imaged at 2- and 4-days old. Intestinal tissue oxygen saturation was measured with PAI imaging for oxy- and deoxyhemoglobin levels. To measure intestinal motility, ultrasound and co-registered PAI cine recordings were used to capture intestinal peristalsis motion and contrast agent (indocyanine green) transit within the intestinal lumen. Additionally, both midplane two-dimensional and volumetric three-dimensional imaging acquisitions were assessed for oxygenation and motility., Results: NEC pups showed a significant decrease of intestinal tissue oxygenation as compared to healthy BF controls at both ages (2-days old: 55.90% +/- 3.77% vs 44.12% +/- 7.18%; 4-days old: 56.13% +/- 3.52% vs 38.86% +/- 8.33%). Intestinal motility, assessed using a computational intestinal deformation analysis, demonstrated a significant reduction in the intestinal motility index in both early (2-day) and established (4-day) NEC. Extensive NEC damage was confirmed with histology and dysmotility was confirmed by small intestinal transit assay., Conclusions: This study presents PAI as a successful emerging diagnostic imaging modality for both intestinal tissue oxygenation and intestinal motility disease hallmarks in a rat NEC model. PAI presents enormous significance and potential for fundamentally changing current clinical paradigms for detecting and monitoring intestinal pathologies in the premature infant., Competing Interests: Competing interests The authors have no competing interests to declare.

Published
2023
Full Text
View/download PDF

33. Clinical Correlates of Cholestasis in Preterm Infants with Surgical Necrotizing Enterocolitis.

Author

Garg PM, Pittman I, Yi J, Weis VG, Rodriguez RJ, Ladd MR, Rauh JL, McDonald AG, Welch C, Premkumar MH, Garg PP, and Maheshwari A

Abstract

Background: We sought to investigate the clinical determinants and outcomes of cholestasis in preterm infants with surgical necrotizing enterocolitis (sNEC)., Methods: Retrospective comparison of clinical information in preterm infants who developed cholestasis vs those who did not., Results: Sixty-two (62/91, 68.1%) infants with NEC developed cholestasis at any time following the onset of illness. Cholestasis was seen more frequently in those who had received ionotropic support at 24 hours following sNEC diagnosis (87.1% vs 58.6%; p = 0.002), had higher mean C-reactive protein levels 2 weeks after NEC diagnosis ( p = 0.009), had blood culture-positive sepsis [25 (40.3%) vs 4 (13.8%); p = 0.011], received parenteral nutrition (PN) for longer durations (108.4 ± 56.63 days vs 97.56 ± 56.05 days; p = 0.007), had higher weight-for-length z scores at 36 weeks' postmenstrual age [-1.0 (-1.73, -0.12) vs -1.32 (-1.76, -0.76); p = 0.025], had a longer length of hospital stay (153.7 ± 77.57 days vs 112.51 ± 85.22 days; p = 0.024), had intestinal failure more often (61% vs 25.0%, p = 0.003), had more surgical complications (50% vs 27.6%; p = 0.044), and had >1 complication (21% vs 3.4%; p = 0.031). Using linear regression, the number of days after surgery when feeds could be started [OR 15.4; confidence interval (CI) 3.71, 27.13; p = 0.009] and the postoperative ileus duration (OR 11.9, CI 1.1, 22.8; p = 0.03) were independently associated with direct bilirubin between 2 and 5 mg/dL (mild-moderate cholestasis) at 2 months of age. The duration of PN was independently associated with direct bilirubin >5 mg/dL (severe cholestasis) at 2 months of age in these patients., Conclusion: Cholestasis was seen in 68% of infants following surgical NEC. The most likely contributive factors are intestinal failure and subsequent PN dependence for longer periods. Our data suggest that identification and prevention of risk factors such as sepsis and surgical complications and early feeds following NEC surgery may improve outcomes., Competing Interests: Conflict of interest: Dr Muralidhar Hebbur Premkumar and Dr Akhil Maheshwari are associated as the Editorial Board Members of this journal and this manuscript was subjected to this journal’s standard review procedures, with this peer review handled independently of these Editorial Board Members and their research group.

Published
2023
Full Text
View/download PDF

34. Photoacoustic Imaging as a Novel Non-Invasive Biomarker to Assess Intestinal Tissue Oxygenation and Motility in Neonatal Rats.

Author

Weis VG, Cruz-Diaz N, Rauh JL, Ellison MA, Yamaleyeva LM, Welch CD, Zeller KA, and Weis JA

Abstract

Background: Within the premature infant intestine, oxygenation and motility play key physiological roles in healthy development and disease such as necrotizing enterocolitis. To date, there are limited techniques to reliably assess these physiological functions that are also clinically feasible for critically ill infants. To address this clinical need, we hypothesized that photoacoustic imaging (PAI) can provide non-invasive assessment of intestinal tissue oxygenation and motility to characterize intestinal physiology and health., Methods: Ultrasound and photoacoustic images were acquired in 2-day and 4-day old neonatal rats. For PAI assessment of intestinal tissue oxygenation, an inspired gas challenge was performed using hypoxic, normoxic, and hyperoxic inspired oxygen (FiO2). For intestinal motility, oral administration of ICG contrast agent was used to compare control animals to an experimental model of loperamide-induced intestinal motility inhibition., Results: PAI demonstrated progressive increases in oxygen saturation (sO2) as FiO2 increased, while the pattern of oxygen localization remained relatively consistent in both 2-day and 4-day old neonatal rats. Analysis of intraluminal ICG contrast enhanced PAI images yielded a map of the motility index in control and loperamide treated rats. From PAI analysis, loperamide significantly inhibited intestinal motility, with a 32.6% decrease in intestinal motility index scores in 4-day old rats., Conclusion: These data establish the feasibility and application of PAI to non-invasively and quantitatively measure intestinal tissue oxygenation and motility. This proof-of-concept study is an important first step in developing and optimizing photoacoustic imaging to provide valuable insight into intestinal health and disease to improve the care of premature infants., Highlights: Intestinal tissue oxygenation and intestinal motility are important biomarkers of intestinal physiology in health and disease of premature infants.This proof-of-concept preclinical rat study is the first to report application of photoacoustic imaging for the neonatal intestine.Photoacoustic imaging is demonstrated as a promising non-invasive diagnostic imaging method for quantifying intestinal tissue oxygenation and intestinal motility in premature infants.

Published
2023
Full Text
View/download PDF

35. Human placental-derived stem cell therapy ameliorates experimental necrotizing enterocolitis.

Author

Weis VG, Deal AC, Mekkey G, Clouse C, Gaffley M, Whitaker E, Peeler CB, Weis JA, Schwartz MZ, and Atala A

Subjects
Animals, Animals, Newborn, Cells, Cultured, Cytokines genetics, Cytokines metabolism, Disease Models, Animal, Enterocolitis, Necrotizing genetics, Enterocolitis, Necrotizing metabolism, Enterocolitis, Necrotizing pathology, Female, Humans, Ileum metabolism, Inflammation Mediators metabolism, Intestinal Mucosa metabolism, Paneth Cells metabolism, Placenta cytology, Pregnancy, Rats, Sprague-Dawley, Receptors, G-Protein-Coupled metabolism, SOX9 Transcription Factor, Stem Cell Niche, Wound Healing, Rats, Apoptosis, Cell Proliferation, Enterocolitis, Necrotizing surgery, Ileum pathology, Intestinal Mucosa pathology, Paneth Cells pathology, Placenta transplantation, Stem Cell Transplantation
Abstract

Necrotizing enterocolitis (NEC), a life-threatening intestinal disease, is becoming a larger proportionate cause of morbidity and mortality in premature infants. To date, therapeutic options remain elusive. Based on recent cell therapy studies, we investigated the effect of a human placental-derived stem cell (hPSC) therapy on intestinal damage in an experimental NEC rat pup model. NEC was induced in newborn Sprague-Dawley rat pups for 4 days via formula feeding, hypoxia, and LPS. NEC pups received intraperitoneal (ip) injections of either saline or hPSC (NEC-hPSC) at 32 and 56 h into NEC induction. At 4 days, intestinal macroscopic and histological damage, epithelial cell composition, and inflammatory marker expression of the ileum were assessed. Breastfed (BF) littermates were used as controls. NEC pups developed significant bowel dilation and fragility in the ileum. Further, NEC induced loss of normal villi-crypt morphology, disruption of epithelial proliferation and apoptosis, and loss of critical progenitor/stem cell and Paneth cell populations in the crypt. hPSC treatment improved macroscopic intestinal health with reduced ileal dilation and fragility. Histologically, hPSC administration had a significant reparative effect on the villi-crypt morphology and epithelium. In addition to a trend of decreased inflammatory marker expression, hPSC-NEC pups had increased epithelial proliferation and decreased apoptosis when compared with NEC littermates. Further, the intestinal stem cell and crypt niche that include Paneth cells, SOX9 + cells, and LGR5 + stem cells were restored with hPSC therapy. Together, these data demonstrate hPSC can promote epithelial healing of NEC intestinal damage. NEW & NOTEWORTHY These studies demonstrate a human placental-derived stem cell (hPSC) therapeutic strategy for necrotizing enterocolitis (NEC). In an experimental model of NEC, hPSC administration improved macroscopic intestinal health, ameliorated epithelial morphology, and supported the intestinal stem cell niche. Our data suggest that hPSC are a potential therapeutic approach to attenuate established intestinal NEC damage. Further, we show hPSC are a novel research tool that can be utilized to elucidate critical neonatal repair mechanisms to overcome NEC.

Published
2021
Full Text
View/download PDF

36. Maturity and age influence chief cell ability to transdifferentiate into metaplasia.

Author

Weis VG, Petersen CP, Weis JA, Meyer AR, Choi E, Mills JC, and Goldenring JR

Subjects
Age Factors, Animals, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Cell Proliferation physiology, Chief Cells, Gastric metabolism, Gastric Mucosa metabolism, Intercellular Signaling Peptides and Proteins, Metaplasia metabolism, Metaplasia pathology, Mice, Mice, Knockout, Parietal Cells, Gastric metabolism, Parietal Cells, Gastric pathology, Peptides metabolism, Cell Lineage physiology, Cell Transdifferentiation physiology, Chief Cells, Gastric pathology, Stomach pathology
Abstract

The plasticity of gastric chief cells is exemplified by their ability to transdifferentiate into spasmolytic polypeptide-expressing metaplasia (SPEM) after parietal cell loss. We sought to determine if chief cell maturity is a limiting factor in the capacity to transdifferentiate. Mist1 - /- mice, previously shown to form only immature chief cells, were treated with DMP-777 or L635 to study the capability of these immature chief cells to transdifferentiate into a proliferative metaplastic lineage after acute parietal cell loss. Mist1 -/- mice treated with DMP-777 showed fewer chief cell to SPEM transitions. Mist1 -/- mice treated with L635 demonstrated significantly fewer proliferative SPEM cells compared with control mice. Thus immature chief cells were unable to transdifferentiate efficiently into SPEM after acute parietal cell loss. To determine whether chief cell age affects transdifferentiation into SPEM, we used tamoxifen to induce YFP expression in chief cells of Mist1 CreER/+ ;Rosa YFP mice and subsequently treated the cells with L635 to induce SPEM at 1 to 3.5 mo after tamoxifen treatment. After L635 treatment to induce acute parietal cell loss, 43% of all YFP-positive cells at 1 mo posttamoxifen were SPEM cells, of which 44% of these YFP-positive SPEM cells were proliferative. By 2 mo after tamoxifen induction, only 24% of marked SPEM cells were proliferating. However, by 3.5 mo after tamoxifen induction, only 12% of marked chief cells transdifferentiated into SPEM and none were proliferative. Thus, as chief cells age, they lose their ability to transdifferentiate into SPEM and proliferate. Therefore, both functional maturation and age limit chief cell plasticity., New & Noteworthy: Previous investigations have indicated that spasmolytic polypeptide-expressing metaplasia (SPEM) in the stomach arises from transdifferentiation of chief cells. Nevertheless, the intrinsic properties of chief cells that influence transdifferentiation have been largely unknown. We now report that the ability to transdifferentiate into SPEM is impaired in chief cells that lack full functional maturation, and as chief cells age, they lose their ability to transdifferentiate. Thus chief cell plasticity is dependent on both cell age and maturation.

Published
2017
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results